RU2652029C1 - Offensive grenade - Google Patents

Abstract

FIELD: combat weapons.

SUBSTANCE: invention relates to hand offensive grenades. Grenade has the shape of a cylinder. It contains a body and an explosive substance, ES. This ES contains several spaced with a gap charges in the form of three-dimensional sectors. On the sectors surface facing away from the grenade axis, there are slit longitudinal, or transverse, or conical shaped grooves with or without lining. At that, the cumulative jets emission sector of 5–35^o to the horizontal line is provided. Each sector with the ES charge is located in a separate housing from the more durable material than the ES itself. Each sector is limited from above and from below by conical surfaces having absorbing pads. From the sides sectors have a rounded shape. At that, the fuse is located along the device axis and has an initiating charge along its entire cylindrical surface or at its ends.

EFFECT: technical result is increase in the grenades damaging effect at short distances and a sharp decrease in danger with increase of the distance from the explosion site.

1 cl, 1 dwg

Description

The invention relates to hand grenades.

Grenades are known, for example, RGO and RGN, see the Internet, or grenade according to US Pat. No. 2467281, with cumulative recesses in explosives (hereinafter BB), the effectiveness of which is doubtful.

A disadvantage of known offensive grenades is not the optimal distribution of fragments in space - they scatter almost evenly in a spherical direction. In addition, a small damaging effect of fragments and at the same time too large radius of their action can be considered a disadvantage.

The objective and technical result of the invention is the expansion of the damaging elements in the optimal sector of the defeat, the increase in the damaging effect of these elements at short distances and the rapid reduction of danger with increasing distance from the place of the explosion.

OPTION 1. For this, the grenade has the form of a cylinder with a ratio of diameter to height of at least 1.5, contains an explosive charge (hereinafter BB), on the cylindrical surface of which there is one or several annular cumulative or longitudinal slotted recesses with or without lining, or there are several conical shaped cavities with or without cladding.

If the ring cumulative recesses are two or more, then they can be located at different angles to the axis of the cylindrical body of the grenade.

Grenades with cumulative recesses without facing will have a very small radius of action and are suitable, for example, in conditions of hostage release.

So that the grenade after the throw does not occupy the “on the edge” position, the grenade has a protrusion on the cylindrical surface.

So that the grenade does not roll over the surface after the throw, the fuse is located radially on its cylindrical surface and protrudes beyond it. That is, when trying to roll, a grenade stumbles upon a protruding fuse to the surface and falls on its side. The fuse may be standard with a delay.

The fuse may be located on the cylindrical surface radially, or, to break the symmetry during rolling, it may be located obliquely to the axis of the cylinder.

If an axial fuse is used that does not protrude, however, beyond the dimensions of the ends of the cylindrical body of the grenade, then in order to prevent the grenade from rolling on the rib, it can have one or more radial traverses. Several of these traverses can replace the protrusion on the cylindrical surface of the grenade, as they will not allow the grenade to take a “on the edge” position. True, a large number of traverses makes it difficult to hold a grenade (traverses will interfere with your fingers, especially in severe frost when the soldier is in mittens).

You can consider the attached sketch as the image of this grenade, provided that the explosive charge pos. 3 is located in the middle of the height of the grenade.

The grenade works like this: after falling to the ground, due to a flat shape resembling a hockey puck, the grenade tends to be aligned with the ends parallel to the ground. Cumulative recesses, annular, slotted or conical, will be directed to the sides and the expansion of the cumulative jets will be directed in all directions horizontally and in the vertical sector approximately + -15 degrees from the horizontal. Such a sector can be considered almost optimal for defeating both the running and the lying manpower of the enemy.

OPTION 2. However, in the previous case, almost half of the cumulative jets will be directed to the surface. Cumulative jets will be extinguished in it and will not give the expected effect.

The second version of the grenade is free from this drawback. The grenade has the form of a cylinder with a ratio of diameter to height of at least 1.5, contains several explosive charges (hereinafter referred to as explosives) with a gap in the form of volume sectors, on which there are slotted longitudinal or transverse slots on the surface facing away from the axis of the grenade or conical shaped cavities with or without lining.

With sufficient mechanical strength, explosive sectors can be molded directly from it. But, taking into account the overloads acting on the sectors when a grenade falls, each explosive charge can be located in a separate housing made of more durable material (steel, plastic). Sectors must be open from the side facing the fuse.

Sectors have the following shape: above and below in the working position grenades (on the sketch) they are limited by two conical surfaces, and from the sides they have a rounded shape (the shape of a torus or close to it) with cumulative recesses. Sectors should be approximately 8-12 pieces.

The formation of a cumulative jet requires special propagation of the detonation front. For this, sectors on conical surfaces have shock absorbing pads. That is, the detonation front will propagate from the sector sector located as close as possible to the grenade axis (the start of detonation should come from the grenade axis).

Since there is a gap between the explosive and the fuse in this version, you should make sure that the fuse is guaranteed to cause detonation of the explosive. It is desirable to have a cylindrical fuse located along the axis of the grenade, in which the initiating explosive charge is located along the entire cylindrical surface of the fuse or at its ends.

Of course, as in option 1, the grenade may have a protrusion along the cylindrical surface and may have traverses.

The sketch shows a sectional view of a grenade according to the second embodiment, it consists of a closed thin-walled steel casing 1, inside which there are sectors 2 of thin-walled steel, filled with explosives. The height (i.e. the chord) of the sectors is slightly less than the height of the cylinder. On the outer surface of the sectors there are annular cumulative grooves 3, and on the lower and upper conical surfaces of the sectors there are shock absorbing pads 4. On the cylindrical surface of the grenade there is an annular protrusion 5, which prevents the grenade from stopping on the rib. And there is welded by contact welding traverse 6, which prevents the grenade from rolling on the rib. A fuse 7 with a retarding action (not impact type) having a knurled nut 8 on top is screwed into the face of the grenade. The fuse can be grate type or exhaust type (as in Christmas crackers).

The grenade works according to the second variant as follows: nut 8 is quickly unscrewed on multi-thread and twitches. In the fuse, the combustion of the moderator begins. The grenade is thrown. When a grenade falls and stops, it lies flat on the ground, and sectors 2 inside it are shifted down by gravity and cumulative recesses are directed horizontally and up (as in the sketch). As a result of this, the sector of expansion of cumulative jets in comparison with the first option is shifted up and is approximately 5-35 degrees to the horizontal. With this expansion sector, 100% of the cladding or gas jets scatter in the sector where the enemy’s manpower can be found. That is, the effectiveness of the grenade is maximum.

Claims (1)

An offensive grenade containing a body and explosive charge, having the form of a cylinder, containing several explosive charges located with a gap in the form of explosive sectors in which there are slotted longitudinal or transverse or conical cumulative slots on the surface facing away from the grenade axis recesses lined or without lining, characterized in that the cumulative dispersion sector recesses provide cumulative jets ^of 5-35 with the horizontal, wherein each sector with explosive charge is located in a separate armature truncated from a stronger material than the explosive is limited top and bottom tapered surfaces having cushioning inserts, and laterally has a circular shape, wherein the fuse is located on the axis of the device and has an initiation charge over its entire surface.

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